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[/] [ao486/] [trunk/] [syn/] [components/] [sd_card/] [firmware/] [bsp/] [HAL/] [inc/] [sys/] [alt_log_printf.h] - Rev 8
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/* alt_log_printf.h * * ALT_LOG is designed to provide extra logging/debugging messages from HAL * through a different port than stdout. It is enabled by the ALT_LOG_ENABLE * define, which needs to supplied at compile time. When logging is turned off, * code size is unaffected. Thus, this should be transparent to the user * when it is not actively turned on, and should not affect projects in any way. * * There are macros sprinkled within different components, such as the jtag uart * and timer, in the HAL code. They are always named ALT_LOG_<name>, and can be * safely ignored if ALT_LOG is turned off. * * To turn on ALT_LOG, ALT_LOG_ENABLE must be defined, and ALT_LOG_PORT_TYPE and * ALT_LOG_PORT_BASE must be set in system.h. This is done through editing * <project>.ptf, by editing the alt_log_port_type & alt_log_port_base settings. * See the documentation html file for examples. * * When it is turned on, it will output extra HAL messages to a port specified * in system.h. This can be a UART or JTAG UART port. By default it will * output boot messages, detailing every step of the boot process. * * Extra logging is designed to be enabled by flags, which are defined in * alt_log_printf.c. The default value is that all flags are off, so only the * boot up logging messages show up. ALT_LOG_FLAGS can be set to enable certain * groupings of flags, and that grouping is done in this file. Each flag can * also be overridden with a -D at compile time. * * This header file includes the necessary prototypes for using the alt_log * functions. It also contains all the macros that are used to remove the code * from alt log is turned off. Also, the macros in other HAL files are defined * here at the bottom. These macros all call some C function that is in * alt_log_printf.c. * * The logging has functions for printing in C (ALT_LOG_PRINTF) and in assembly * (ALT_LOG_PUTS). This was needed because the assembly printing occurs before * the device is initialized. The assembly function corrupts register R4-R7, * which are not used in the normal boot process. For this reason, do not call * the assembly function in C. * * author: gkwan */ #ifndef __ALT_LOG_PRINTF_H__ #define __ALT_LOG_PRINTF_H__ #include <system.h> /* Global switch to turn on logging functions */ #ifdef ALT_LOG_ENABLE /* ALT_LOG_PORT_TYPE values as defined in system.h. They are defined as * numbers here first becasue the C preprocessor does not handle string * comparisons. */ #define ALTERA_AVALON_JTAG_UART 1 #define ALTERA_AVALON_UART 0 /* If this .h file is included by an assembly file, skip over include files * that won't compile in assembly. */ #ifndef ALT_ASM_SRC #include <stdarg.h> #include "sys/alt_alarm.h" #include "sys/alt_dev.h" #ifdef __ALTERA_AVALON_JTAG_UART #include "altera_avalon_jtag_uart.h" #endif #endif /* ALT_ASM_SRC */ /* These are included for the port register offsets and masks, needed * to write to the port. Only include if the port type is set correctly, * otherwise error. If alt_log is turned on and the port to output to is * incorrect or does not exist, then should exit. */ #if ALT_LOG_PORT_TYPE == ALTERA_AVALON_JTAG_UART #ifdef __ALTERA_AVALON_JTAG_UART #include <altera_avalon_jtag_uart_regs.h> #else #error ALT_LOG: JTAG_UART port chosen, but no JTAG_UART in system. #endif #elif ALT_LOG_PORT_TYPE == ALTERA_AVALON_UART #ifdef __ALTERA_AVALON_UART #include <altera_avalon_uart_regs.h> #else #error ALT_LOG: UART Port chosen, but no UART in system. #endif #else #error ALT_LOG: alt_log_port_type declaration invalid! #endif /* ALT_LOG_ENABLE turns on the basic printing function */ #define ALT_LOG_PRINTF(...) do {alt_log_printf_proc(__VA_ARGS__);} while (0) /* Assembly macro for printing in assembly, calls tx_log_str * which is in alt_log_macro.S. * If alt_log_boot_on_flag is 0, skips the printing */ #define ALT_LOG_PUTS(str) movhi r4, %hiadj(alt_log_boot_on_flag) ; \ addi r4, r4, %lo(alt_log_boot_on_flag) ; \ ldwio r5, 0(r4) ; \ beq r0, r5, 0f ; \ movhi r4, %hiadj(str) ; \ addi r4, r4, %lo(str) ; \ call tx_log_str ; \ 0: /* These defines are here to faciliate the use of one output function * (alt_log_txchar) to print to both the JTAG UART or the UART. Depending * on the port type, the status register, read mask, and output register * are set to the appropriate value for the port. */ #if ALT_LOG_PORT_TYPE == ALTERA_AVALON_JTAG_UART #define ALT_LOG_PRINT_REG_RD IORD_ALTERA_AVALON_JTAG_UART_CONTROL #define ALT_LOG_PRINT_MSK ALTERA_AVALON_JTAG_UART_CONTROL_WSPACE_MSK #define ALT_LOG_PRINT_TXDATA_WR IOWR_ALTERA_AVALON_JTAG_UART_DATA #define ALT_LOG_PRINT_REG_OFFSET (ALTERA_AVALON_JTAG_UART_CONTROL_REG*0x4) #define ALT_LOG_PRINT_TXDATA_REG_OFFSET (ALTERA_AVALON_JTAG_UART_DATA_REG*0x4) #elif ALT_LOG_PORT_TYPE == ALTERA_AVALON_UART #define ALT_LOG_PRINT_REG_RD IORD_ALTERA_AVALON_UART_STATUS #define ALT_LOG_PRINT_MSK ALTERA_AVALON_UART_STATUS_TRDY_MSK #define ALT_LOG_PRINT_TXDATA_WR IOWR_ALTERA_AVALON_UART_TXDATA #define ALT_LOG_PRINT_REG_OFFSET (ALTERA_AVALON_UART_STATUS_REG*0x4) #define ALT_LOG_PRINT_TXDATA_REG_OFFSET (ALTERA_AVALON_UART_TXDATA_REG*0x4) #endif /* ALT_LOG_PORT */ /* Grouping of flags via ALT_LOG_FLAGS. Each specific flag can be set via * -D at compile time, or else they'll be set to a default value according * to ALT_LOG_FLAGS. ALT_LOG_FLAGS = 0 or not set is the default, where * only the boot messages will be printed. As ALT_LOG_FLAGS increase, they * increase in intrusiveness to the program, and will affect performance. * * Flag Level 1 - turns on system clock and JTAG UART startup status * 2 - turns on write echo and JTAG_UART alarm (periodic report) * 3 - turns on JTAG UART ISR logging - will slow performance * significantly. * -1 - All logging output is off, but if ALT_LOG_ENABLE is * defined all logging function is built and code size * remains constant * * Flag settings - 1 = on, 0 = off. */ /* This flag turns on "boot" messages for printing. This includes messages * during crt0.S, then alt_main, and finally alt_exit. */ #ifndef ALT_LOG_BOOT_ON_FLAG_SETTING #if ALT_LOG_FLAGS == 1 #define ALT_LOG_BOOT_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == 2 #define ALT_LOG_BOOT_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == 3 #define ALT_LOG_BOOT_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == -1 /* silent mode */ #define ALT_LOG_BOOT_ON_FLAG_SETTING 0x0 #else /* default setting */ #define ALT_LOG_BOOT_ON_FLAG_SETTING 0x1 #endif #endif /* ALT_LOG_BOOT_ON_FLAG_SETTING */ #ifndef ALT_LOG_SYS_CLK_ON_FLAG_SETTING #if ALT_LOG_FLAGS == 1 #define ALT_LOG_SYS_CLK_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == 2 #define ALT_LOG_SYS_CLK_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == 3 #define ALT_LOG_SYS_CLK_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == -1 /* silent mode */ #define ALT_LOG_SYS_CLK_ON_FLAG_SETTING 0x0 #else /* default setting */ #define ALT_LOG_SYS_CLK_ON_FLAG_SETTING 0x0 #endif #endif /* ALT_LOG_SYS_CLK_ON_FLAG_SETTING */ #ifndef ALT_LOG_WRITE_ON_FLAG_SETTING #if ALT_LOG_FLAGS == 1 #define ALT_LOG_WRITE_ON_FLAG_SETTING 0x0 #elif ALT_LOG_FLAGS == 2 #define ALT_LOG_WRITE_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == 3 #define ALT_LOG_WRITE_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == -1 /* silent mode */ #define ALT_LOG_WRITE_ON_FLAG_SETTING 0x0 #else /* default setting */ #define ALT_LOG_WRITE_ON_FLAG_SETTING 0x0 #endif #endif /* ALT_LOG_WRITE_ON_FLAG_SETTING */ #ifndef ALT_LOG_JTAG_UART_ALARM_ON_FLAG_SETTING #ifndef __ALTERA_AVALON_JTAG_UART #define ALT_LOG_JTAG_UART_ALARM_ON_FLAG_SETTING 0x0 #elif ALT_LOG_FLAGS == 1 #define ALT_LOG_JTAG_UART_ALARM_ON_FLAG_SETTING 0x0 #elif ALT_LOG_FLAGS == 2 #define ALT_LOG_JTAG_UART_ALARM_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == 3 #define ALT_LOG_JTAG_UART_ALARM_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == -1 /* silent mode */ #define ALT_LOG_JTAG_UART_ALARM_ON_FLAG_SETTING 0x0 #else /* default setting */ #define ALT_LOG_JTAG_UART_ALARM_ON_FLAG_SETTING 0x0 #endif #endif /* ALT_LOG_JTAG_UART_ALARM_ON_FLAG_SETTING */ #ifndef ALT_LOG_JTAG_UART_STARTUP_INFO_ON_FLAG_SETTING #ifndef __ALTERA_AVALON_JTAG_UART #define ALT_LOG_JTAG_UART_STARTUP_INFO_ON_FLAG_SETTING 0x0 #elif ALT_LOG_FLAGS == 1 #define ALT_LOG_JTAG_UART_STARTUP_INFO_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == 2 #define ALT_LOG_JTAG_UART_STARTUP_INFO_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == 3 #define ALT_LOG_JTAG_UART_STARTUP_INFO_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == -1 /* silent mode */ #define ALT_LOG_JTAG_UART_STARTUP_INFO_ON_FLAG_SETTING 0x0 #else /* default setting */ #define ALT_LOG_JTAG_UART_STARTUP_INFO_ON_FLAG_SETTING 0x0 #endif #endif /* ALT_LOG_JTAG_UART_STARTUP_INFO_FLAG_SETTING */ #ifndef ALT_LOG_JTAG_UART_ISR_ON_FLAG_SETTING #ifndef __ALTERA_AVALON_JTAG_UART #define ALT_LOG_JTAG_UART_ISR_ON_FLAG_SETTING 0x0 #elif ALT_LOG_FLAGS == 1 #define ALT_LOG_JTAG_UART_ISR_ON_FLAG_SETTING 0x0 #elif ALT_LOG_FLAGS == 2 #define ALT_LOG_JTAG_UART_ISR_ON_FLAG_SETTING 0x0 #elif ALT_LOG_FLAGS == 3 #define ALT_LOG_JTAG_UART_ISR_ON_FLAG_SETTING 0x1 #elif ALT_LOG_FLAGS == -1 /* silent mode */ #define ALT_LOG_JTAG_UART_ISR_ON_FLAG_SETTING 0x0 #else /* default setting */ #define ALT_LOG_JTAG_UART_ISR_ON_FLAG_SETTING 0x0 #endif #endif /* ALT_LOG_JTAG_UART_ISR_ON_FLAG_SETTING */ #ifndef ALT_ASM_SRC /* Function Prototypes */ void alt_log_txchar(int c,char *uartBase); void alt_log_private_printf(const char *fmt,int base,va_list args); void alt_log_repchar(char c,int r,int base); int alt_log_printf_proc(const char *fmt, ... ); void alt_log_system_clock(); #ifdef __ALTERA_AVALON_JTAG_UART alt_u32 altera_avalon_jtag_uart_report_log(void * context); void alt_log_jtag_uart_startup_info(altera_avalon_jtag_uart_state* dev, int base); void alt_log_jtag_uart_print_control_reg(altera_avalon_jtag_uart_state* dev, \ int base, const char* header); void alt_log_jtag_uart_isr_proc(int base, altera_avalon_jtag_uart_state* dev); #endif void alt_log_write(const void *ptr, size_t len); /* extern all global variables */ extern volatile alt_u32 alt_log_boot_on_flag; extern volatile alt_u8 alt_log_write_on_flag; extern volatile alt_u8 alt_log_sys_clk_on_flag; extern volatile alt_u8 alt_log_jtag_uart_alarm_on_flag; extern volatile alt_u8 alt_log_jtag_uart_isr_on_flag; extern volatile alt_u8 alt_log_jtag_uart_startup_info_on_flag; extern volatile int alt_log_sys_clk_count; extern volatile int alt_system_clock_in_sec; extern alt_alarm alt_log_jtag_uart_alarm_1; #endif /* ALT_ASM_SRC */ /* Below are the MACRO defines used in various HAL files. They check * if their specific flag is turned on; if it is, then it executes its * code. * * To keep this file reasonable, most of these macros calls functions, * which are defined in alt_log_printf.c. Look there for implementation * details. */ /* Boot Messages Logging */ #define ALT_LOG_PRINT_BOOT(...) \ do { if (alt_log_boot_on_flag==1) {ALT_LOG_PRINTF(__VA_ARGS__);} \ } while (0) /* JTAG UART Logging */ /* number of ticks before alarm runs logging function */ #ifndef ALT_LOG_JTAG_UART_TICKS_DIVISOR #define ALT_LOG_JTAG_UART_TICKS_DIVISOR 10 #endif #ifndef ALT_LOG_JTAG_UART_TICKS #define ALT_LOG_JTAG_UART_TICKS \ (alt_ticks_per_second()/ALT_LOG_JTAG_UART_TICKS_DIVISOR) #endif /* if there's a JTAG UART defined, then enable these macros */ #ifdef __ALTERA_AVALON_JTAG_UART /* Macro in altera_avalon_jtag_uart.c, to register the alarm function. * Also, the startup register info is also printed here, as this is * called within the device driver initialization. */ #define ALT_LOG_JTAG_UART_ALARM_REGISTER(dev, base) \ do { if (alt_log_jtag_uart_alarm_on_flag==1) { \ alt_alarm_start(&alt_log_jtag_uart_alarm_1, \ ALT_LOG_JTAG_UART_TICKS, &altera_avalon_jtag_uart_report_log,\ dev);} \ if (alt_log_jtag_uart_startup_info_on_flag==1) {\ alt_log_jtag_uart_startup_info(dev, base);} \ } while (0) /* JTAG UART IRQ Logging (when buffer is empty) * Inserted in the ISR in altera_avalon_jtag_uart.c */ #define ALT_LOG_JTAG_UART_ISR_FUNCTION(base, dev) \ do { alt_log_jtag_uart_isr_proc(base, dev); } while (0) /* else, define macros to nothing. Or else the jtag_uart specific types * will throw compiler errors */ #else #define ALT_LOG_JTAG_UART_ALARM_REGISTER(dev, base) #define ALT_LOG_JTAG_UART_ISR_FUNCTION(base, dev) #endif /* System clock logging * How often (in seconds) the system clock logging prints. * The default value is every 1 second */ #ifndef ALT_LOG_SYS_CLK_INTERVAL_MULTIPLIER #define ALT_LOG_SYS_CLK_INTERVAL_MULTIPLIER 1 #endif #ifndef ALT_LOG_SYS_CLK_INTERVAL #define ALT_LOG_SYS_CLK_INTERVAL \ (alt_ticks_per_second()*ALT_LOG_SYS_CLK_INTERVAL_MULTIPLIER) #endif /* System clock logging - prints a message every interval (set above) * to show that the system clock is alive. * This macro is used in altera_avalon_timer_sc.c */ #define ALT_LOG_SYS_CLK_HEARTBEAT() \ do { alt_log_system_clock(); } while (0) /* alt_write_logging - echos a message every time write() is called, * displays the first ALT_LOG_WRITE_ECHO_LEN characters. * This macro is used in alt_write.c */ #ifndef ALT_LOG_WRITE_ECHO_LEN #define ALT_LOG_WRITE_ECHO_LEN 15 #endif #define ALT_LOG_WRITE_FUNCTION(ptr,len) \ do { alt_log_write(ptr,len); } while (0) #else /* ALT_LOG_ENABLE not defined */ /* logging is off, set all relevant macros to null */ #define ALT_LOG_PRINT_BOOT(...) #define ALT_LOG_PRINTF(...) #define ALT_LOG_JTAG_UART_ISR_FUNCTION(base, dev) #define ALT_LOG_JTAG_UART_ALARM_REGISTER(dev, base) #define ALT_LOG_SYS_CLK_HEARTBEAT() #define ALT_LOG_PUTS(str) #define ALT_LOG_WRITE_FUNCTION(ptr,len) #endif /* ALT_LOG_ENABLE */ #endif /* __ALT_LOG_PRINTF_H__ */